John Hamilton

I should also note that Sue sounded kind of pleased when she found out that removing a single receptor wasn't enough to end a rodent's search for love.

I should also note that Sue sounded kind of pleased when she found out that removing a single receptor wasn't enough to end a rodent's search for love.

I should also note that Sue sounded kind of pleased when she found out that removing a single receptor wasn't enough to end a rodent's search for love.

Well, Sue Carter thinks there is. She says the research on oxytocin and prairie voles is really kind of a reminder that even something as abstract as love can be found, I mean, at least in some form, in other mammals.

Well, Sue Carter thinks there is. She says the research on oxytocin and prairie voles is really kind of a reminder that even something as abstract as love can be found, I mean, at least in some form, in other mammals.

Well, Sue Carter thinks there is. She says the research on oxytocin and prairie voles is really kind of a reminder that even something as abstract as love can be found, I mean, at least in some form, in other mammals.

Yeah, I mean, at least when it comes to pair bonding.

Yeah, I mean, at least when it comes to pair bonding.

Yeah, I mean, at least when it comes to pair bonding.

Hello, Regina Barber.

Hello, Regina Barber.

Hello, Regina Barber.

I had a great time making fun of you. Not that I want you to go away again or anything.

I had a great time making fun of you. Not that I want you to go away again or anything.

I had a great time making fun of you. Not that I want you to go away again or anything.

Right, Gina. Back in August, we talked about how some people who fired powerful weapons in the military can end up with brain damage. We talked about concussions or maybe a more serious traumatic brain injury. And then there's this early research about arteriovenous malformations or AVMs.

Right, Gina. Back in August, we talked about how some people who fired powerful weapons in the military can end up with brain damage. We talked about concussions or maybe a more serious traumatic brain injury. And then there's this early research about arteriovenous malformations or AVMs.

Right, Gina. Back in August, we talked about how some people who fired powerful weapons in the military can end up with brain damage. We talked about concussions or maybe a more serious traumatic brain injury. And then there's this early research about arteriovenous malformations or AVMs.

Yeah. It's this malformed tangle of veins and arteries that can cause a stroke. So usually, you know, blood from the heart travels through the arteries and then through these tiny blood vessels called capillaries before it goes back to our veins and then back to the heart. Those capillaries act as a kind of a buffer.

Yeah. It's this malformed tangle of veins and arteries that can cause a stroke. So usually, you know, blood from the heart travels through the arteries and then through these tiny blood vessels called capillaries before it goes back to our veins and then back to the heart. Those capillaries act as a kind of a buffer.